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diff --git a/advtrains/lzb.lua b/advtrains/lzb.lua
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+-- lzb.lua
+-- Enforced and/or automatic train override control, providing the on_train_approach callback
+
+--[[
+Documentation of train.lzb table
+train.lzb = {
+	trav_index = Current index that the traverser has advanced so far
+	checkpoints = table containing oncoming signals, in order of index
+		{
+			pos = position of the point
+			index = where this is on the path
+			speed = speed allowed to pass. nil = no effect
+			callback = function(pos, id, train, index, speed, lzbdata)
+			-- Function that determines what to do on the train in the moment it drives over that point.
+			-- When spd==0, called instead when train has stopped in front
+			-- nil = no effect
+			lzbdata = {}
+			-- Table of custom data filled in by approach callbacks
+			-- Whenever an approach callback inserts an LZB checkpoint with changed lzbdata,
+			-- all consecutive approach callbacks will see these passed as lzbdata table.
+			
+			udata = arbitrary user data, no official way to retrieve (do not use)
+		}
+	trav_lzbdata = currently active lzbdata table at traverser index
+}
+The LZB subsystem keeps track of "checkpoints" the train will pass in the future, and has two main tasks:
+1. run approach callbacks, and run callbacks when passing LZB checkpoints
+2. keep track of the permitted speed at checkpoints, and make sure that the train brakes accordingly
+To perform 2, it populates the train.path_speed table which is handled along with the path subsystem.
+This table is used in trainlogic.lua/train_step_b() and applied to the velocity calculations.
+
+Note: in contrast to node enter callbacks, which are called when the train passes the .5 index mark, LZB callbacks are executed on passing the .0 index mark!
+If an LZB checkpoint has speed 0, the train will still enter the node (the enter callback will be called), but will stop at the 0.9 index mark (for details, see SLOW_APPROACH in trainlogic.lua)
+
+The start point for the LZB traverser (and thus the first node that will receive an approach callback) is floor(train.index) + 1. This means, once the LZB checkpoint callback has fired,
+this path node will not receive any further approach callbacks for the same approach situation
+]]
+
+
+local params = {
+	BRAKE_SPACE = 10,
+	AWARE_ZONE  = 50,
+
+	ADD_STAND  =  2.5,
+	ADD_SLOW   =  1.5,
+	ADD_FAST   =  7,
+	ZONE_ROLL  =  2,
+	ZONE_HOLD  =  5, -- added on top of ZONE_ROLL
+	ZONE_VSLOW =  3, -- When speed is <2, still allow accelerating
+
+	DST_FACTOR =  1.5,
+
+	SHUNT_SPEED_MAX = advtrains.SHUNT_SPEED_MAX,
+}
+
+function advtrains.set_lzb_param(par, val)
+	if params[par] and tonumber(val) then
+		params[par] = tonumber(val)
+	else
+		error("Inexistant param or not a number")
+	end
+end
+
+local function resolve_latest_lzbdata(ckp, index)
+	local i = #ckp
+	local ckpi
+	while i>0 do
+		ckpi = ckp[i]
+		if ckpi.index <= index and ckpi.lzbdata then
+			return ckpi.lzbdata
+		end
+		i=i-1
+	end
+	return {}
+end
+
+local function look_ahead(id, train)
+	local lzb = train.lzb
+	if lzb.zero_checkpoint then
+		-- if the checkpoints list contains a zero checkpoint, don't look ahead
+		-- in order to not trigger approach callbacks on the wrong path
+		return
+	end
+	
+	local acc = advtrains.get_acceleration(train, 1)
+	-- worst-case: the starting point is maximum speed
+	local vel = train.max_speed or train.velocity
+	local brakedst = ( -(vel*vel) / (2*acc) ) * params.DST_FACTOR
+	
+	--local brake_i = advtrains.path_get_index_by_offset(train, train.index, brakedst + params.BRAKE_SPACE)
+	-- worst case (don't use index_by_offset)
+	local brake_i = atfloor(train.index + brakedst + params.BRAKE_SPACE)
+	atprint("LZB: looking ahead up to ", brake_i)
+	
+	--local aware_i = advtrains.path_get_index_by_offset(train, brake_i, AWARE_ZONE)
+	
+	local trav = lzb.trav_index
+	-- retrieve latest lzbdata
+	if not lzb.trav_lzbdata then
+		lzb.trav_lzbdata = resolve_latest_lzbdata(lzb.checkpoints, trav)
+	end
+	
+	if lzb.trav_lzbdata.off_track then
+		--previous position was off track, do not scan any further
+	end
+	
+	while trav <= brake_i and not lzb.zero_checkpoint do
+		local pos = advtrains.path_get(train, trav)
+		-- check offtrack
+		if trav - 1 == train.path_trk_f then
+			lzb.trav_lzbdata.off_track = true
+			advtrains.lzb_add_checkpoint(train, trav - 1, 0, nil, lzb.trav_lzbdata)
+		else
+			-- run callbacks
+			-- Note: those callbacks are defined in trainlogic.lua for consistency with the other node callbacks
+			advtrains.tnc_call_approach_callback(pos, id, train, trav, lzb.trav_lzbdata)
+			
+		end
+		trav = trav + 1
+		
+	end
+	
+	lzb.trav_index = trav
+	
+end
+advtrains.lzb_look_ahead = look_ahead
+
+
+local function call_runover_callbacks(id, train)
+	if not train.lzb then return end
+	
+	local i = 1
+	local idx = atfloor(train.index)
+	local ckp = train.lzb.checkpoints
+	while ckp[i] do
+		if ckp[i].index <= idx then
+			atprint("LZB: checkpoint run over: i=",ckp[i].index,"s=",ckp[i].speed)
+			-- call callback
+			local it = ckp[i]
+			if it.callback then
+				it.callback(it.pos, id, train, it.index, it.speed, train.lzb.lzbdata)
+			end
+			-- note: lzbdata is always defined as look_ahead was called before
+			table.remove(ckp, i)
+		else
+			i = i + 1
+		end
+	end
+end
+
+-- Flood-fills train.path_speed, based on this checkpoint 
+local function apply_checkpoint_to_path(train, checkpoint)
+	if not checkpoint.speed then
+		return
+	end
+	atprint("LZB: applying checkpoint: i=",checkpoint.index,"s=",checkpoint.speed)
+	
+	if checkpoint.speed == 0 then
+		train.lzb.zero_checkpoint = true
+	end
+	
+	-- make sure path exists until checkpoint
+	local pos = advtrains.path_get(train, checkpoint.index)
+	
+	local brake_accel = advtrains.get_acceleration(train, 11)
+	
+	-- start with the checkpoint index at specified speed
+	local index = checkpoint.index
+	local p_speed -- speed in path_speed
+	local c_speed = checkpoint.speed -- calculated speed at current index
+	while true do
+		p_speed = train.path_speed[index]
+		if (p_speed and p_speed <= c_speed) or index < train.index then
+			--we're done. train already slower than wanted at this position
+			return
+		end
+		-- insert calculated target speed
+		train.path_speed[index] = c_speed
+		-- calculate c_speed at previous index
+		advtrains.path_get(train, index-1)
+		local eldist = train.path_dist[index] - train.path_dist[index-1]
+		-- Calculate the start velocity the train would have if it had a end velocity of c_speed and accelerating with brake_accel, after a distance of eldist:
+		-- v0² = v1² - 2*a*s
+		c_speed = math.sqrt( (c_speed * c_speed) - (2 * brake_accel * eldist) )
+		index = index - 1
+	end
+end
+
+--[[
+Distance needed to accelerate from v0 to v1 with constant acceleration a:
+
+         v1 - v0     a   / v1 - v0 \ 2     v1^2 - v0^2
+s = v0 * -------  +  - * | ------- |    =  -----------
+            a        2   \    a    /           2*a
+]]
+
+-- Removes all LZB checkpoints and restarts the traverser at the current train index
+function advtrains.lzb_invalidate(train)
+	train.lzb = {
+		trav_index = atfloor(train.index) + 1,
+		checkpoints = {},
+	}
+end
+
+-- LZB part of path_invalidate_ahead. Clears all checkpoints that are ahead of start_idx
+-- in contrast to path_inv_ahead, doesn't complain if start_idx is behind train.index, clears everything then
+function advtrains.lzb_invalidate_ahead(train, start_idx)
+	if train.lzb then
+		local idx = atfloor(start_idx)
+		local i = 1
+		while train.lzb.checkpoints[i] do
+			if train.lzb.checkpoints[i].index >= idx then
+				table.remove(train.lzb.checkpoints, i)
+			else
+				i=i+1
+			end
+		end
+		train.lzb.trav_index = idx
+		-- FIX reset trav_lzbdata (look_ahead fetches these when required)
+		train.lzb.trav_lzbdata = nil
+		-- re-apply all checkpoints to path_speed
+		train.path_speed = {}
+		train.lzb.zero_checkpoint = false
+		for _,ckp in ipairs(train.lzb.checkpoints) do
+			apply_checkpoint_to_path(train, ckp)
+		end
+	end
+end
+
+-- Add LZB control point
+-- lzbdata: If you modify lzbdata in an approach callback, you MUST add a checkpoint AND pass the (modified) lzbdata into it.
+-- If you DON'T modify lzbdata, you MUST pass nil as lzbdata. Always modify the lzbdata table in place, never overwrite it!
+-- udata: user-defined data, do not use externally
+function advtrains.lzb_add_checkpoint(train, index, speed, callback, lzbdata, udata)
+	local lzb = train.lzb
+	local pos = advtrains.path_get(train, index)
+	local lzbdata_c = nil
+	if lzbdata then
+		-- make a shallow copy of lzbdata
+		lzbdata_c = {}
+		for k,v in pairs(lzbdata) do lzbdata_c[k] = v end
+	end
+	local ckp = {
+		pos = pos,
+		index = index,
+		speed = speed,
+		callback = callback,
+		lzbdata = lzbdata_c,
+		udata = udata,
+	}
+	table.insert(lzb.checkpoints, ckp)
+	
+	apply_checkpoint_to_path(train, ckp)
+end
+
+
+advtrains.te_register_on_new_path(function(id, train)
+	advtrains.lzb_invalidate(train)
+	-- Taken care of in pre-move hook (see train_step_b)
+	--look_ahead(id, train)
+end)
+
+advtrains.te_register_on_invalidate_ahead(function(id, train, start_idx)
+	advtrains.lzb_invalidate_ahead(train, start_idx)
+end)
+
+advtrains.te_register_on_update(function(id, train)
+	if not train.path or not train.lzb then
+		atprint("LZB run: no path on train, skip step")
+		return
+	end
+	-- Note: look_ahead called from train_step_b before applying movement
+	-- TODO: if more pre-move hooks are added, make a separate callback hook
+	--look_ahead(id, train)
+	call_runover_callbacks(id, train)
+end, true)